menu icon
MSc Optical Communications and Signal Processing

MSc Optical Communications and Signal Processing

Different course options

Study mode

Full time

Duration

1 year

Start date

SEP-25

Key information
DATA SOURCE : IDP Connect

Qualification type

MSc - Master of Science

Subject areas

Optical Communications Networks Signal Processing Components Communication Studies

Course type

Taught

Course Summary

Overview

This programme provides a challenging range of advanced topics drawn from optical communications systems and devices, and optics-related signal processing, including associated enabling technologies. It offers an excellent opportunity to acquire the skills needed for a career in the most dynamic fields in optical communications. Optical fibre communications form the backbone of all land-based communications and are the only viable means to support today's global information systems. Research at Bristol is contributing to the ever-increasing requirement for bandwidth and flexibility through research into optical switching technology, wavelength conversion, high-speed modulation, data regeneration and novel semiconductor lasers. As well as units on the fundamentals of electromagnetics, optical fibres and optical devices, there are two units related to optical networks: Optical Networks and Data Centre Networks. The Optical Networks unit focuses on wavelength division multiplexed (WDM) networks, time division multiplexed (TDM) networks, including SDH/SONET and OTN, optical frequency division multiplexed networks, and optical sub-wavelength switched networks. The Data Centre Networks unit focuses on networks for cloud computing, cloud-based networking and grid computing. This programme builds on the internationally recognised research strengths of the Photonics and Quantum and High Performance Networks research groups within the Smart Internet Lab. The Photonics group is exploring the new field of quantum photonics with key successes in developing photonic crystal fibre light sources, quantum secured optical communications and novel quantum gate technologies.

Modules

Knowledge of networking tools and technologies is essential to the understanding of modern telecommunication systems. Networking deals with keeping systems connected over various transmission technologies, and how to provide this service fast, efficiently, and reliably. Networks are very dynamic systems - new transmission technologies are continuously introduced, providing better support for the network system as such, but also making certain requirements upon it. In addition, the industry anticipates an even larger expansion in the provision of advanced services to subscribers in the corporate and residential domains, such as networked digital television or multimedia conferencing. The subject of this course is how the network system provides communication between systems to deliver content, both in traditional fixed and newer wireless systems, and how all this is changing.

Tuition fees

UK fees
Course fees for UK students

For this course (per year)

£18,400

International fees
Course fees for EU and international students

For this course (per year)

£35,800

Entry requirements

An upper second-class honours degree or international equivalent in Electronic and Electrical Engineering, Microelectronic Engineering, Communications Engineering, Computer Systems Engineering, Information and Communications Technologies, Telecommunications, Information Engineering, Computer Networks, Computer Science and Technologies, Optical Information Science and Technologies, Optical Engineering & Physics. Other Engineering degrees might be considered where a minimum of 5 modules at 2.1 in electronics/communications have been achieved.